It is well known that the finite element method (FEM) suffers severely from the volumetric locking problem for incompressible materials in topology optimization owing to its numerical ‘overly stiff’ property. In this article, two typical smoothed FEMs with a certain softened effect, namely the node-based smoothed finite element method (NS-FEM) and the cell-based smoothed finite element method, are formulated to model the compressible and incompressible materials for topology optimization. Numerical examples have demonstrated that the NS-FEM with an ‘overly soft’ property is fairly effective in tackling the volumetric locking problem in topology optimization when both compressible and incompressible materials are involved
We show both theoretically and numerically a connection between the smoothed finite element method (...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...
We present an alternative formulation for the topology optimization of structures made of incompress...
Abstract In this paper, the smoothed finite element method, incorporated with the level set method, ...
peer reviewedThis paper promotes the development of a novel family of finite elements with smoothed ...
In general, the biologic system can be rather sophisticated and commonly present in hierarchical lay...
In this work, a novel computational approach is developed for the gradient-based stress-based topolo...
peer reviewedThis work presents a locking-free smoothed finite element method (S-FEM) for the simula...
© 2016 Elsevier Ltd. All rights reserved. In general, the biologic system can be rather sophisticate...
Topology optimization approaches are commonly used for design problems involving physical phenomena ...
The paper deals with an alternative formulation for the topology optimization of structures acted up...
In this paper the cell-based smoothed finite element method (CS-FEM) is introduced into two mainstre...
We present a novel topology optimization formulation capable to handle in a straightforward fashion ...
Composite materials with periodic microstructures are commonly used in engineering. Numerical homoge...
Our contribution consists of three parts: a gradient-based parameter-free shape optimization method;...
We show both theoretically and numerically a connection between the smoothed finite element method (...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...
We present an alternative formulation for the topology optimization of structures made of incompress...
Abstract In this paper, the smoothed finite element method, incorporated with the level set method, ...
peer reviewedThis paper promotes the development of a novel family of finite elements with smoothed ...
In general, the biologic system can be rather sophisticated and commonly present in hierarchical lay...
In this work, a novel computational approach is developed for the gradient-based stress-based topolo...
peer reviewedThis work presents a locking-free smoothed finite element method (S-FEM) for the simula...
© 2016 Elsevier Ltd. All rights reserved. In general, the biologic system can be rather sophisticate...
Topology optimization approaches are commonly used for design problems involving physical phenomena ...
The paper deals with an alternative formulation for the topology optimization of structures acted up...
In this paper the cell-based smoothed finite element method (CS-FEM) is introduced into two mainstre...
We present a novel topology optimization formulation capable to handle in a straightforward fashion ...
Composite materials with periodic microstructures are commonly used in engineering. Numerical homoge...
Our contribution consists of three parts: a gradient-based parameter-free shape optimization method;...
We show both theoretically and numerically a connection between the smoothed finite element method (...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...
We present an alternative formulation for the topology optimization of structures made of incompress...